A comprehensive investigation on nonlinear vibration and bending characteristics of bio-inspired helicoidal laminated composite structures

Bio-inspired helicoidal composite laminates, inspired by the intricate helical structures found in nature, present a promising frontier for enhancing the mechanical properties of structural designs. Hence, this study provides a comprehensive investigation into the nonlinear free vibration and nonlin...

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Published in	Applied mathematics and mechanics Vol. 46; no. 1; pp. 81 - 100
Main Authors	Saurabh, S., Kiran, R., Singh, D., Vaish, R., Chauhan, V. S.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.01.2025 Springer Nature B.V
Edition	English ed.
Subjects	Applications of Mathematics Boundary conditions Classical Mechanics Composite structures Configurations Finite element method Fluid- and Aerodynamics Free vibration Laminar composites Laminates Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Mechanical properties Nonlinearity Partial Differential Equations Plates (structural members) Resonant frequencies Shear deformation Structural design Thickness ratio O322 bio-inspired composite plate finite element method (FEM) Green-Lagrange 74H60 nonlinear inverse hyperbolic shear deformation theory (IHSDT) helicoidal
Online Access	Get full text
ISSN	0253-4827 1573-2754
DOI	10.1007/s10483-025-3200-7

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Abstract	Bio-inspired helicoidal composite laminates, inspired by the intricate helical structures found in nature, present a promising frontier for enhancing the mechanical properties of structural designs. Hence, this study provides a comprehensive investigation into the nonlinear free vibration and nonlinear bending behavior of bio-inspired composite plates. The inverse hyperbolic shear deformation theory (IHSDT) of plates is employed to characterize the displacement field, with the incorporation of Green-Lagrange nonlinearity. The problem is modeled using the C 0 finite element method (FEM), and an in-house code is developed in the MATLAB environment to solve it numerically. Various helicoidal layup configurations including helicoidal recursive (HR), helicoidal exponential (HE), helicoidal semi-circular (HS), linear helicoidal (LH), and Fibonacci helicoidal (FH) with different layup sequences and quasi-isotropic configurations are studied. The model is validated, and parametric studies are conducted. These studies investigate the effects of layup configurations, side-to-thickness ratio, modulus ratios, boundary conditions, and loading conditions at different load amplitudes on the nonlinear vibration and nonlinear bending behaviors of bio-inspired composite plates. The results show that the laminate sequence exerts a substantial impact on both nonlinear natural frequencies and nonlinear bending behaviors. Moreover, this influence varies across different side-to-thickness ratios and boundary conditions of the bio-inspired composite plate.
AbstractList	Bio-inspired helicoidal composite laminates, inspired by the intricate helical structures found in nature, present a promising frontier for enhancing the mechanical properties of structural designs. Hence, this study provides a comprehensive investigation into the nonlinear free vibration and nonlinear bending behavior of bio-inspired composite plates. The inverse hyperbolic shear deformation theory (IHSDT) of plates is employed to characterize the displacement field, with the incorporation of Green-Lagrange nonlinearity. The problem is modeled using the C0 finite element method (FEM), and an in-house code is developed in the MATLAB environment to solve it numerically. Various helicoidal layup configurations including helicoidal recursive (HR), helicoidal exponential (HE), helicoidal semi-circular (HS), linear helicoidal (LH), and Fibonacci helicoidal (FH) with different layup sequences and quasi-isotropic configurations are studied. The model is validated, and parametric studies are conducted. These studies investigate the effects of layup configurations, side-to-thickness ratio, modulus ratios, boundary conditions, and loading conditions at different load amplitudes on the nonlinear vibration and nonlinear bending behaviors of bio-inspired composite plates. The results show that the laminate sequence exerts a substantial impact on both nonlinear natural frequencies and nonlinear bending behaviors. Moreover, this influence varies across different side-to-thickness ratios and boundary conditions of the bio-inspired composite plate. Bio-inspired helicoidal composite laminates, inspired by the intricate helical structures found in nature, present a promising frontier for enhancing the mechanical properties of structural designs. Hence, this study provides a comprehensive investigation into the nonlinear free vibration and nonlinear bending behavior of bio-inspired composite plates. The inverse hyperbolic shear deformation theory (IHSDT) of plates is employed to characterize the displacement field, with the incorporation of Green-Lagrange nonlinearity. The problem is modeled using the C 0 finite element method (FEM), and an in-house code is developed in the MATLAB environment to solve it numerically. Various helicoidal layup configurations including helicoidal recursive (HR), helicoidal exponential (HE), helicoidal semi-circular (HS), linear helicoidal (LH), and Fibonacci helicoidal (FH) with different layup sequences and quasi-isotropic configurations are studied. The model is validated, and parametric studies are conducted. These studies investigate the effects of layup configurations, side-to-thickness ratio, modulus ratios, boundary conditions, and loading conditions at different load amplitudes on the nonlinear vibration and nonlinear bending behaviors of bio-inspired composite plates. The results show that the laminate sequence exerts a substantial impact on both nonlinear natural frequencies and nonlinear bending behaviors. Moreover, this influence varies across different side-to-thickness ratios and boundary conditions of the bio-inspired composite plate.
Author	Saurabh, S. Vaish, R. Chauhan, V. S. Singh, D. Kiran, R.
Author_xml	– sequence: 1 givenname: S. surname: Saurabh fullname: Saurabh, S. organization: School of Mechanical and Materials Engineering, Indian Institute of Technology Mandi – sequence: 2 givenname: R. surname: Kiran fullname: Kiran, R. email: raj@iitmandi.ac.in organization: School of Mechanical and Materials Engineering, Indian Institute of Technology Mandi – sequence: 3 givenname: D. surname: Singh fullname: Singh, D. organization: School of Mechanical and Materials Engineering, Indian Institute of Technology Mandi – sequence: 4 givenname: R. surname: Vaish fullname: Vaish, R. organization: School of Mechanical and Materials Engineering, Indian Institute of Technology Mandi – sequence: 5 givenname: V. S. surname: Chauhan fullname: Chauhan, V. S. organization: School of Mechanical and Materials Engineering, Indian Institute of Technology Mandi
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SubjectTerms	Applications of Mathematics Boundary conditions Classical Mechanics Composite structures Configurations Finite element method Fluid- and Aerodynamics Free vibration Laminar composites Laminates Mathematical Modeling and Industrial Mathematics Mathematics Mathematics and Statistics Mechanical properties Nonlinearity Partial Differential Equations Plates (structural members) Resonant frequencies Shear deformation Structural design Thickness ratio
Title	A comprehensive investigation on nonlinear vibration and bending characteristics of bio-inspired helicoidal laminated composite structures
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